Miyakogusa Predicted Gene
- Lj2g3v2002790.2
BLASTP 2.2.25 [Feb-01-2011]
Reference: Altschul, Stephen F., Thomas L. Madden, Alejandro A. Schaffer,
Jinghui Zhang, Zheng Zhang, Webb Miller, and David J. Lipman (1997),
"Gapped BLAST and PSI-BLAST: a new generation of protein database search
programs", Nucleic Acids Res. 25:3389-3402.
Reference for compositional score matrix adjustment: Altschul, Stephen F.,
John C. Wootton, E. Michael Gertz, Richa Agarwala, Aleksandr Morgulis,
Alejandro A. Schaffer, and Yi-Kuo Yu (2005) "Protein database searches
using compositionally adjusted substitution matrices", FEBS J. 272:5101-5109.
Query= Lj2g3v2002790.2 CUFF.38398.2
(421 letters)
Database: Glyma1.pep
75,778 sequences; 25,431,882 total letters
Searching..................................................done
Score E
Sequences producing significant alignments: (bits) Value
Glyma01g42260.1 558 e-159
Glyma01g42260.2 540 e-153
Glyma11g03100.1 525 e-149
Glyma08g45790.1 195 7e-50
Glyma17g12890.1 161 1e-39
Glyma05g08120.1 158 1e-38
Glyma08g45790.2 152 6e-37
Glyma13g33940.1 145 1e-34
Glyma12g36310.1 143 4e-34
>Glyma01g42260.1
Length = 408
Score = 558 bits (1437), Expect = e-159, Method: Compositional matrix adjust.
Identities = 290/383 (75%), Positives = 322/383 (84%), Gaps = 10/383 (2%)
Query: 39 SSPSSIRFRSTFSIHRKYTLFAPFPFPCASLNSSDSLTXXXXXXXXXXXXQTVKQNSVPI 98
SSP SIRF S F +R + P CA L SSDSL QT +QNS+ I
Sbjct: 36 SSPCSIRFNSHFP-YRSTKV----PLKCAPLPSSDSLPPDLSDAPT----QT-EQNSMSI 85
Query: 99 LEILKQSNSFLPHVLIATTLLALIFPPSLTWFTTRYYAPALGFLMFAVGVNSSEKDFLEA 158
LEILKQSNS+LPHVLIA+ LLALI+PPSLTWFT+RYYAPALGFLMFAVGVNS+E DFLEA
Sbjct: 86 LEILKQSNSYLPHVLIASILLALIYPPSLTWFTSRYYAPALGFLMFAVGVNSNENDFLEA 145
Query: 159 FNRPAEIVTGYVGQFVVKPLLGYLFYLISVNVFGLPTAIGAGIVLVACVSGAQLSNYATF 218
F RPAEIVTGY GQF VKPLLGYLF +I+V V LPT +GAGIVLVACVSGAQLS+YATF
Sbjct: 146 FKRPAEIVTGYFGQFAVKPLLGYLFCMIAVTVLSLPTTVGAGIVLVACVSGAQLSSYATF 205
Query: 219 LTDPQMAPLSIVMTSLSTASAVFVTPXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVGL 278
LTDPQMAPLSIVMTSLSTASAVFVTP IGK+LP+DV+GMV+SITQIVV PIA GL
Sbjct: 206 LTDPQMAPLSIVMTSLSTASAVFVTPLLLLLLIGKKLPIDVRGMVYSITQIVVVPIAAGL 265
Query: 279 LLNRFFPRICQAIRPFLPPLSVLVASICAGAPLALNIESIKSPLGVTLLLLVVAFHLSSF 338
LLNRF+PRIC IRPFLPPLSVLVASICAGAPLA N+E++KSPLGV +LLLVVAFHLSSF
Sbjct: 266 LLNRFYPRICNVIRPFLPPLSVLVASICAGAPLAFNVETMKSPLGVAILLLVVAFHLSSF 325
Query: 339 IAGYVLSGFIFHDAPDVKALQRTISFETGMQSSLLALALANKFFEDPVVSIPPAISTAMM 398
IAGY+LSGF+F D+ DVKALQRTISFETGMQSSLLALALANKFFEDP V+IPPAIST++M
Sbjct: 326 IAGYILSGFVFRDSLDVKALQRTISFETGMQSSLLALALANKFFEDPKVAIPPAISTSIM 385
Query: 399 SLTGFGLVLIWSKRGKGETKQST 421
SL GF LVLIW++RGK + K S+
Sbjct: 386 SLMGFVLVLIWTRRGKRDIKHSS 408
>Glyma01g42260.2
Length = 326
Score = 540 bits (1392), Expect = e-153, Method: Compositional matrix adjust.
Identities = 266/324 (82%), Positives = 294/324 (90%)
Query: 98 ILEILKQSNSFLPHVLIATTLLALIFPPSLTWFTTRYYAPALGFLMFAVGVNSSEKDFLE 157
ILEILKQSNS+LPHVLIA+ LLALI+PPSLTWFT+RYYAPALGFLMFAVGVNS+E DFLE
Sbjct: 3 ILEILKQSNSYLPHVLIASILLALIYPPSLTWFTSRYYAPALGFLMFAVGVNSNENDFLE 62
Query: 158 AFNRPAEIVTGYVGQFVVKPLLGYLFYLISVNVFGLPTAIGAGIVLVACVSGAQLSNYAT 217
AF RPAEIVTGY GQF VKPLLGYLF +I+V V LPT +GAGIVLVACVSGAQLS+YAT
Sbjct: 63 AFKRPAEIVTGYFGQFAVKPLLGYLFCMIAVTVLSLPTTVGAGIVLVACVSGAQLSSYAT 122
Query: 218 FLTDPQMAPLSIVMTSLSTASAVFVTPXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVG 277
FLTDPQMAPLSIVMTSLSTASAVFVTP IGK+LP+DV+GMV+SITQIVV PIA G
Sbjct: 123 FLTDPQMAPLSIVMTSLSTASAVFVTPLLLLLLIGKKLPIDVRGMVYSITQIVVVPIAAG 182
Query: 278 LLLNRFFPRICQAIRPFLPPLSVLVASICAGAPLALNIESIKSPLGVTLLLLVVAFHLSS 337
LLLNRF+PRIC IRPFLPPLSVLVASICAGAPLA N+E++KSPLGV +LLLVVAFHLSS
Sbjct: 183 LLLNRFYPRICNVIRPFLPPLSVLVASICAGAPLAFNVETMKSPLGVAILLLVVAFHLSS 242
Query: 338 FIAGYVLSGFIFHDAPDVKALQRTISFETGMQSSLLALALANKFFEDPVVSIPPAISTAM 397
FIAGY+LSGF+F D+ DVKALQRTISFETGMQSSLLALALANKFFEDP V+IPPAIST++
Sbjct: 243 FIAGYILSGFVFRDSLDVKALQRTISFETGMQSSLLALALANKFFEDPKVAIPPAISTSI 302
Query: 398 MSLTGFGLVLIWSKRGKGETKQST 421
MSL GF LVLIW++RGK + K S+
Sbjct: 303 MSLMGFVLVLIWTRRGKRDIKHSS 326
>Glyma11g03100.1
Length = 532
Score = 525 bits (1351), Expect = e-149, Method: Compositional matrix adjust.
Identities = 282/392 (71%), Positives = 312/392 (79%), Gaps = 17/392 (4%)
Query: 10 PPH-QGLSSLFLL----HPKSPSSVRC--SSRYNATSSPSSIRFRSTFSIHRKYTLFAPF 62
P H + SLF L P +P V C ++ N SSP SIRF S F
Sbjct: 8 PKHFNNVHSLFNLSKSQQPPNPIIVPCCRTNTNNNISSPFSIRFNSPFPYRS-----PKI 62
Query: 63 PFPCASLNSSDSLTXXXXXXXXXXXXQTVKQNSVPILEILKQSNSFLPHVLIATTLLALI 122
P CA L+SSDSL ++QNS+ ILEILKQSNS+LPH LIA+ LLALI
Sbjct: 63 PLKCAPLHSSDSLPPDPSSAST-----QMEQNSMSILEILKQSNSYLPHALIASILLALI 117
Query: 123 FPPSLTWFTTRYYAPALGFLMFAVGVNSSEKDFLEAFNRPAEIVTGYVGQFVVKPLLGYL 182
+P SLTWFT+R+YAPALGFLMFAVGVNS+E DFLEAF RPAEIVTGY GQF VKPLLGYL
Sbjct: 118 YPRSLTWFTSRFYAPALGFLMFAVGVNSNENDFLEAFKRPAEIVTGYFGQFAVKPLLGYL 177
Query: 183 FYLISVNVFGLPTAIGAGIVLVACVSGAQLSNYATFLTDPQMAPLSIVMTSLSTASAVFV 242
F +I+V V GLPT +GAGIVLVACVSGAQLS+YATFLTDPQMAPLSIVMTSLSTASAVFV
Sbjct: 178 FCMIAVTVLGLPTTVGAGIVLVACVSGAQLSSYATFLTDPQMAPLSIVMTSLSTASAVFV 237
Query: 243 TPXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVGLLLNRFFPRICQAIRPFLPPLSVLV 302
TP IGK+LP+DVKGMV++ITQIVV PIA GLLLNRFFPRIC IRPFLPPLSVLV
Sbjct: 238 TPLLLLLLIGKKLPIDVKGMVYNITQIVVVPIAAGLLLNRFFPRICNVIRPFLPPLSVLV 297
Query: 303 ASICAGAPLALNIESIKSPLGVTLLLLVVAFHLSSFIAGYVLSGFIFHDAPDVKALQRTI 362
ASICAGAPLALN+E++KSPLGV +LLLVVAFHLSSFIAGY+LSGF+F D+ DVKALQRTI
Sbjct: 298 ASICAGAPLALNVETMKSPLGVAILLLVVAFHLSSFIAGYILSGFVFRDSLDVKALQRTI 357
Query: 363 SFETGMQSSLLALALANKFFEDPVVSIPPAIS 394
SFETGMQSSLLALALANKFFEDP V+IPPAIS
Sbjct: 358 SFETGMQSSLLALALANKFFEDPKVAIPPAIS 389
>Glyma08g45790.1
Length = 417
Score = 195 bits (496), Expect = 7e-50, Method: Compositional matrix adjust.
Identities = 117/289 (40%), Positives = 166/289 (57%), Gaps = 14/289 (4%)
Query: 124 PPSLTWFTTRYYAPALGFLMFAVGVNSSEKDFLEAFNRPAEIVTGYVGQFVVKPLLGYLF 183
P + TW + YAPALG +M ++G+ S DF AF RP + G + Q+V+KP+LG L
Sbjct: 117 PSTFTWVSKELYAPALGGIMLSIGIRLSVDDFALAFKRPLPLTIGLIAQYVLKPVLGILV 176
Query: 184 YLISVNVFGLPTAIGAGIVLVACVSGAQLSNYATFLTDPQMAPLSIVMTSLSTASAVFVT 243
FGL AG VL ACVSGAQLS+YA FL+ +A L I++TS +T ++V VT
Sbjct: 177 ----AKAFGLSRMFYAGFVLTACVSGAQLSSYANFLSKGDVA-LGILLTSYTTIASVIVT 231
Query: 244 PXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVGLLLNRFFPRICQAIRPFLPPLSVLVA 303
P IG +PVD M SI Q+V+ P+ +GLLLN + + ++P +P ++++
Sbjct: 232 PLLTGLLIGSVVPVDAVAMSKSILQVVLVPVTLGLLLNTYAKSVVSVLQPVMPFVAMICT 291
Query: 304 SICAGAPLALNIESIKSPLGVTLLLLVVAFHLSSFIAGYVLSGFIFHDAPDVK---ALQR 360
S+C G+PLALN I + G+ L+ V+ FH+ +F GY F P ++ + R
Sbjct: 292 SLCIGSPLALNRSQILTGEGLRLVFPVLTFHVVAFTLGY-----WFSKIPSLRQEEQVSR 346
Query: 361 TISFETGMQSSLLALALANKFFEDPVVSIPPAISTAMMSLTGFGLVLIW 409
TIS TGMQSS LA LA +F D ++PPA S M++ G L W
Sbjct: 347 TISLCTGMQSSTLAGLLATQFL-DSSQAVPPACSVIAMAIMGLCLASFW 394
>Glyma17g12890.1
Length = 429
Score = 161 bits (407), Expect = 1e-39, Method: Compositional matrix adjust.
Identities = 101/315 (32%), Positives = 169/315 (53%), Gaps = 14/315 (4%)
Query: 98 ILEILKQSNSFLPHVLIATTLLALIFPPSLTWFTTRYYAPALGFLMFAVGVNSSEKDFLE 157
++EIL + P +I ++ + P ++TW T ++ GFL+ ++G+ + +DF
Sbjct: 117 VIEIL---TALFPVWVILGAIVGIYKPTAVTWLATDLFSLGFGFLILSMGLTLTFEDFRR 173
Query: 158 AFNRPAEIVTGYVGQFVVKPLLGYLFYLISVNVFGLPTAIGAGIVLVACVSGAQLSNYAT 217
P + G++ Q+++KP+LG+ + L + G++LVAC G Q SN AT
Sbjct: 174 CLRNPWTVGVGFLAQYLIKPMLGFAIAM----TLKLSAPLATGLILVACCPGCQASNVAT 229
Query: 218 FLTDPQMAPLSIVMTSLSTASAVFVTPXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVG 277
F+ +A LS++MT+ ST A+ +TP G+ +PVD G+ S Q+V+ P VG
Sbjct: 230 FIAKGNVA-LSVLMTTCSTIGAIIMTPLLTKLLAGQLVPVDAVGLALSTFQVVLVPTIVG 288
Query: 278 LLLNRFFPRICQAIRPFLPPLSVLVASICAGAPLALNIESIKSPLGVTLLLLVVAFHLSS 337
+L N FP+ I P + V++ ++ +P+ L + +K+ G L+L VV H +S
Sbjct: 289 VLANELFPKFTSKIITVTPLIGVILTTLLCASPIGLASDVLKAQ-GAQLVLPVVFLHAAS 347
Query: 338 FIAGYVLSGFIFHDAPDVKALQRTISFETGMQSSLLALALANKFFEDPVVSIPPAISTAM 397
F GY +S F ++ RT+S E GMQSS LA + F +P+V++P A+S
Sbjct: 348 FALGYWVSRISFGESSS-----RTVSIECGMQSSAFGFLLAQRHFTNPLVAVPSAVSVVC 402
Query: 398 MSLTGFGLVLIWSKR 412
M+L G L + W+ R
Sbjct: 403 MALGGSALAVFWTNR 417
>Glyma05g08120.1
Length = 382
Score = 158 bits (400), Expect = 1e-38, Method: Compositional matrix adjust.
Identities = 101/298 (33%), Positives = 161/298 (54%), Gaps = 20/298 (6%)
Query: 126 SLTWFTTRYYAPALGFLMFAVGVNSSEKDFLEAFNRPAEIVTGYVGQFVVKPLLGY---- 181
+TW T ++ LGFLM ++G+ + +DF P + G++ Q+++KP+LG+
Sbjct: 82 QVTWLATDLFSLGLGFLMLSMGLTLTFEDFRRCLQNPWTVGIGFLAQYLIKPMLGFAIAM 141
Query: 182 -------LFYLISVNVFGLPTAIGAGIVLVACVSGAQLSNYATFLTDPQMAPLSIVMTSL 234
L++ + + + P A G++LVAC G Q SN ATF+ +A LS++MT+
Sbjct: 142 QAETKAMLYFQVILYLRQAPLA--TGLILVACCPGCQASNVATFIAKGNVA-LSVLMTTC 198
Query: 235 STASAVFVTPXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVGLLLNRFFPRICQAIRPF 294
ST A+ +TP G+ +PVD G+ S Q+V+ P VG+L N FP+ I
Sbjct: 199 STIGAIIMTPLLTNLLAGQLVPVDAVGLALSTFQVVLVPTIVGVLANELFPKFTSKIITI 258
Query: 295 LPPLSVLVASICAGAPLALNIESIKSPLGVTLLLLVVAFHLSSFIAGYVLSGFIFHDAPD 354
P + V++ ++ +P+ L +++K+ G L+L VV H +SF GY +S F ++
Sbjct: 259 TPLIGVILTTLLCASPIGLASDALKAQ-GAQLVLPVVFLHAASFALGYWVSRISFGESTS 317
Query: 355 VKALQRTISFETGMQSSLLALALANKFFEDPVVSIPPAISTAMMSLTGFGLVLIWSKR 412
RTIS E GMQSS LA K F +P+V++P A+S M+L G L + W R
Sbjct: 318 -----RTISIECGMQSSAFGFLLAQKHFTNPLVAVPSAVSVVCMALGGSALAVFWMNR 370
>Glyma08g45790.2
Length = 315
Score = 152 bits (384), Expect = 6e-37, Method: Compositional matrix adjust.
Identities = 84/200 (42%), Positives = 120/200 (60%), Gaps = 5/200 (2%)
Query: 124 PPSLTWFTTRYYAPALGFLMFAVGVNSSEKDFLEAFNRPAEIVTGYVGQFVVKPLLGYLF 183
P + TW + YAPALG +M ++G+ S DF AF RP + G + Q+V+KP+LG L
Sbjct: 117 PSTFTWVSKELYAPALGGIMLSIGIRLSVDDFALAFKRPLPLTIGLIAQYVLKPVLGILV 176
Query: 184 YLISVNVFGLPTAIGAGIVLVACVSGAQLSNYATFLTDPQMAPLSIVMTSLSTASAVFVT 243
FGL AG VL ACVSGAQLS+YA FL+ +A L I++TS +T ++V VT
Sbjct: 177 ----AKAFGLSRMFYAGFVLTACVSGAQLSSYANFLSKGDVA-LGILLTSYTTIASVIVT 231
Query: 244 PXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVGLLLNRFFPRICQAIRPFLPPLSVLVA 303
P IG +PVD M SI Q+V+ P+ +GLLLN + + ++P +P ++++
Sbjct: 232 PLLTGLLIGSVVPVDAVAMSKSILQVVLVPVTLGLLLNTYAKSVVSVLQPVMPFVAMICT 291
Query: 304 SICAGAPLALNIESIKSPLG 323
S+C G+PLALN I + G
Sbjct: 292 SLCIGSPLALNRSQILTGEG 311
>Glyma13g33940.1
Length = 415
Score = 145 bits (365), Expect = 1e-34, Method: Compositional matrix adjust.
Identities = 90/295 (30%), Positives = 151/295 (51%), Gaps = 10/295 (3%)
Query: 117 TLLALIFPPSLTWFTTRYYAPALGFLMFAVGVNSSEKDFLEAFNRPAEIVTGYVGQFVVK 176
++L L+ P W T + L +M +G+ + D P E+++G++ Q+ V
Sbjct: 127 SVLGLMKPSYFNWVTPKLSIMGLNIIMLGMGMTLTLDDLRGVLAMPKEVLSGFLIQYSVM 186
Query: 177 PLLGYLFYLISVNVFGLPTAIGAGIVLVACVSGAQLSNYATFLTDPQMAPLSIVMTSLST 236
PL G+L + LP+ AGI+L+ C G SN T+L +A LS++MT+ ST
Sbjct: 187 PLSGFLIS----KLLNLPSHSAAGIILLGCCPGGTASNIITYLARANVA-LSVIMTTAST 241
Query: 237 ASAVFVTPXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVGLLLNRFFPRICQAIRPFLP 296
SA+ +TP GK + VD G++ S Q+V+ P+ G LN+FF I + + P +P
Sbjct: 242 ISAMIMTPLLTAKLAGKYVAVDAPGLLISTLQVVLVPVLAGAFLNQFFQPIVKFVSPLMP 301
Query: 297 PLSVLVASICAGAPLALNIESIKSPLGVTLLLLVVAFHLSSFIAGYVLSGFIFHDAPDVK 356
P++V+ +I G + + +I + G ++L S F GY+ + + D
Sbjct: 302 PIAVITVAILCGNAIGQSSSAILAS-GGQVILATFLLQASGFFFGYLFARLLRLDVSS-- 358
Query: 357 ALQRTISFETGMQSSLLALALANKFFEDPVVSIPPAISTAMMSLTGFGLVLIWSK 411
RTIS + GM++ +L + LA K F DP+ ++P A++ S+ G L IW +
Sbjct: 359 --SRTISSQVGMKNCVLQIVLATKHFGDPLSAVPGALAIVNQSIIGSILAGIWRR 411
>Glyma12g36310.1
Length = 366
Score = 143 bits (360), Expect = 4e-34, Method: Compositional matrix adjust.
Identities = 91/294 (30%), Positives = 146/294 (49%), Gaps = 10/294 (3%)
Query: 118 LLALIFPPSLTWFTTRYYAPALGFLMFAVGVNSSEKDFLEAFNRPAEIVTGYVGQFVVKP 177
+L L+ P W T + L +M +G+ + D A P +++ G+V Q+ V P
Sbjct: 77 VLGLMKPNCFNWVTPKVTIRGLNIIMLGMGMTLTLDDLRGALAMPKQVLYGFVLQYSVMP 136
Query: 178 LLGYLFYLISVNVFGLPTAIGAGIVLVACVSGAQLSNYATFLTDPQMAPLSIVMTSLSTA 237
L G+L + L AG++L+ C G SN T+L+ +A LS++MT+ ST
Sbjct: 137 LSGFLIS----TLLNLAPHFAAGLILIGCSPGGTASNIITYLSRGNVA-LSVIMTTASTL 191
Query: 238 SAVFVTPXXXXXXIGKRLPVDVKGMVFSITQIVVAPIAVGLLLNRFFPRICQAIRPFLPP 297
+A +TP GK + VD G++ S Q+V+ P+ G LN+FF + + P +PP
Sbjct: 192 TATIMTPFLTATLAGKYVAVDASGLLISTLQVVLFPVLAGAFLNQFFKPFVKLVSPLMPP 251
Query: 298 LSVLVASICAGAPLALNIESIKSPLGVTLLLLVVAFHLSSFIAGYVLSGFIFHDAPDVKA 357
++V +I G +A + +I G ++L H S F GY+ + D
Sbjct: 252 IAVTTVAILCGNSIAQSSSAILV-CGGQVILATFLLHASGFFFGYIFGRLLGLDVSS--- 307
Query: 358 LQRTISFETGMQSSLLALALANKFFEDPVVSIPPAISTAMMSLTGFGLVLIWSK 411
RTIS + GM++S+L + LA K F DP+ ++P A+S S+ G L IW
Sbjct: 308 -SRTISTQVGMKNSVLGIVLATKHFGDPLTAVPGAVSIVFQSIIGSILAGIWRD 360